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A Small Interferometer in Space for Global Astrometry: The Gaia Concept

Published online by Cambridge University Press:  07 August 2017

L. Lindegren  and
M.A.C. Perryman
L. Lindegren
Affiliation:
Lund Observatory Box 43 S-22100 Lund Sweden
M.A.C. Perryman
Affiliation:
Astrophysics Division European Space Agency, ESTEC NL-2200 AG Noordwijk The Netherlands

Abstract

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We present a concept for a scanning interferometer for global (wide-angle) astrometry from space. The GAIA concept has been proposed for the European Space Agency's long-term scientific programme. It consists of three Fizeau-type interferometers with 2.5 m baselines, set at large and fixed angles to each other. Complete utilization of the instrument's resolution and sensitivity requires a new type of photon-counting detector, combining very high spatial and temporal resolution. An array of superconducting tunnel junctions (STJ) may ultimately provide this capability. Pending this development we describe a focal-plane configuration for GAIA using existing technology in the form of a modulating grid and CCD detectors. We estimate that 50 million stars brighter than V = 15.5 could be observed on the 10 to 20 microarcsec accuracy level. In addition, high-precision multi-colour, multi-epoch photometry is obtained for all objects.

Type
3. Expected Developments in High Precision Astrometry
Information
Symposium - International Astronomical Union , Volume 166: Astronomical and Astrophysical Objectives of Sub-Milliarcsecond Optical Astrometry , 1995 , pp. 337 - 344
Copyright
Copyright © Kluwer 1995 

References

Høg, E. (1994) A New Era of Global Astrometry. II: A 10 Microarcsecond Mission, this volume CrossRefGoogle Scholar
Kovalevsky, J. and Turon, C. (1992), Scientific Requirements for Very Accurate Astrometry, Advances in Space Research, vol. 11, pp. (2)5(2)12 Google Scholar
Lindegren, L., Perryman, M.A.C., Bastian, U., Dainty, J.C., Høg, E., van Leeuwen, F., Kovalevsky, J., Labeyrie, A., Loiseau, S., Mignard, F., Noordam, J.E., Le Poole, R.S., Thejll, P. and Vakili, F. (1994) GAIA — Global Astrometric Interferometer for Astrophysics, Amplitude and Intensity Spatial Interferometry II, ed. Breckinridge, J.B., SPIE, vol. 2200, pp. 599608 Google Scholar
Ridgway, S.T. (1993) The scientific support for a space interferometry mission, Spaceborne Interferometry, ed. Reasenberg, R.D., SPIE, vol. 1947, pp. 211 CrossRefGoogle Scholar